Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate-storing bacteria that oxidize hydrogen sulfide using either oxygen or nitrate, which they store in intracellular vacuoles. Despite their conspicuous metabolic properties and their biogeochemical importance, little is known about their genetic repertoire because of the lack of pure cultures. Here, we present a unique approach to access the genome of single filaments of Beggiatoa by combining whole genome amplification, pyrosequencing, and optical genome mapping. Sequence assemblies were incomplete and yielded average contig sizes of approximately 1 kb. Pathways for sulfur oxidation, nitrate and oxygen respiration, and CO2 fixation confirm the...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Hydrothermal sediments in the Guaymas Basin are covered by microbial mats that are dominated by nitr...
BackgroundBacteria of the genus Sulfobacillus are found worldwide as members of microbial communitie...
Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate...
Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate...
Large, colorless sulfur-oxidizing bacteria (LSB) of the family Beggiatoaceae form thick mats at sulf...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Large, colorless sulfur-oxidizing bacteria (LSB) of the family Beggiatoaceae form thick mats at sulf...
The chemolithoautotrophic strain Beggiatoa sp. 35Flor shows an unusual migration behavior when culti...
Filamentous sulphide-oxidizing Beggiatoa spp. often occur in large numbers in the coastal seabed wit...
The chemolithoautotrophic strain Beggiatoa sp. 35Flor shows an unusual migration behavior when culti...
The aim of this study was to investigate the supposed vertical diel migration and the accompanying p...
Large filamentous sulfide-oxidizing bacteria are capable of forming huge microbial mats at the oxic-...
The family Beggiatoaceae comprises large, colorless sulfur bacteria, which are best known for their ...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Hydrothermal sediments in the Guaymas Basin are covered by microbial mats that are dominated by nitr...
BackgroundBacteria of the genus Sulfobacillus are found worldwide as members of microbial communitie...
Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate...
Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate...
Large, colorless sulfur-oxidizing bacteria (LSB) of the family Beggiatoaceae form thick mats at sulf...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Large, colorless sulfur-oxidizing bacteria (LSB) of the family Beggiatoaceae form thick mats at sulf...
The chemolithoautotrophic strain Beggiatoa sp. 35Flor shows an unusual migration behavior when culti...
Filamentous sulphide-oxidizing Beggiatoa spp. often occur in large numbers in the coastal seabed wit...
The chemolithoautotrophic strain Beggiatoa sp. 35Flor shows an unusual migration behavior when culti...
The aim of this study was to investigate the supposed vertical diel migration and the accompanying p...
Large filamentous sulfide-oxidizing bacteria are capable of forming huge microbial mats at the oxic-...
The family Beggiatoaceae comprises large, colorless sulfur bacteria, which are best known for their ...
Filamentous large sulfur-oxidizing bacteria (FLSB) of the family Beggiatoaceae are globally distribu...
Hydrothermal sediments in the Guaymas Basin are covered by microbial mats that are dominated by nitr...
BackgroundBacteria of the genus Sulfobacillus are found worldwide as members of microbial communitie...